US7096968B2 - Aeration device - Google Patents
Aeration device Download PDFInfo
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- US7096968B2 US7096968B2 US10/387,092 US38709203A US7096968B2 US 7096968 B2 US7096968 B2 US 7096968B2 US 38709203 A US38709203 A US 38709203A US 7096968 B2 US7096968 B2 US 7096968B2
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- aeration
- soil
- tine
- movement
- tines
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01B—SOIL WORKING IN AGRICULTURE OR FORESTRY; PARTS, DETAILS, OR ACCESSORIES OF AGRICULTURAL MACHINES OR IMPLEMENTS, IN GENERAL
- A01B45/00—Machines for treating meadows or lawns, e.g. for sports grounds
- A01B45/02—Machines for treating meadows or lawns, e.g. for sports grounds for aerating
- A01B45/026—Scarifiers comprising a knife reel actively driven around a substantially horizontal shaft
Definitions
- Soil aeration devices are generally designed to cut a plug out of the soil instead of driving a spike into the soil because the latter approach compacts the soil.
- Towable soil aerator devices typically remove plugs of soil while forming an enlarged soil aeration pocket.
- Such aerators include hollow cylindrical tubes that enter the soil at an angle to cut free a cylindrical soil plug which contains grass, grass roots and soil.
- planetary gears in the soil aeration device cause the soil aeration tubes to pivot to form a soil aeration hole or pocket wherein the bottom portion of the soil aeration hole is larger than the top opening of the soil aeration hole.
- the soil aeration tube is then lifted out of the soil to remove the soil plug, which is usually discarded on top of the soil.
- FIG. 1 is a perspective of a soil aerator device having a set of aeration tines
- FIG. 2 is a top view of an aeration tine
- FIG. 3 is a side view of the aeration tine of FIG. 2 ;
- FIG. 3 a is a front view of the aeration tine of FIG. 2 ;
- FIG. 3 b is a back view of the aeration tine of FIG. 2 ;
- FIG. 4 is a bottom view of the aeration tine of FIG. 2 ;
- FIG. 5 is a partial side view showing the aeration tine of FIG. 2 penetrating the soil
- FIG. 6 is a partial side view showing the aeration tine of FIG. 2 partially rotated within the soil
- FIG. 7 is a partial side view showing the aeration tine of FIG. 2 emerging from the soil;
- FIG. 8 is a perspective view of an alternate aeration tine
- FIG. 9 is a top view of the aeration tine of FIG. 8 ;
- FIG. 10 is an end view of the aeration tine of FIG. 8 ;
- FIG. 11 is a side view of the aeration tine of FIG. 8 ;
- FIG. 12 is a perspective view of yet another embodiment of an aeration tine
- FIG. 13 is a top view of the aeration tine of FIG. 12 ;
- FIG. 14 is an end view of the aeration tine of FIG. 12 ;
- FIG. 15 is a side view of the aeration tine of FIG. 12 ;
- FIG. 16 is a perspective view of an aeration tine adapted for use on putting greens
- FIG. 17 is a top view of the aeration tine of FIG. 16 ;
- FIG. 18 is an end view of the aeration tine of FIG. 16 ;
- FIG. 19 is a side view of the aeration tine of FIG. 16 ;
- FIG. 20 depicts a golf course green that has been aerated with the aeration tine of FIG. 16 ;
- FIGS. 21–24 depict the planetary motion of arcuate tines in certain embodiments.
- FIGS. 25–26 depict a top view and a side view, respectively, of another embodiment of an aeration tine.
- a soil aeration device may include a plurality of arcuate blades mounted to an assembly adapted to rotate and translate the blades proximate a ground surface, thereby forming aeration pockets in the soil.
- the arcuate tines penetrate and fracture the soil while minimizing the amount of soil lifted from the pocket deposited on the top of the soil.
- a planetary gear assembly imparts to the tine a translational and rotational movement which creates a fractured pocket in the soil while minimizing the amount of soil lifted from the pocket and deposited on the surface of the soil.
- the arcuate tine may have mounted thereon a coring tube that cuts and removes a plug from the pocket formed in the soil.
- the soil aeration device enables a grassy area such as a golf course fairway to be aerated without the deposition of the plugs or significant amounts of soil on the grass, thereby permitting use of the fairway immediately after aeration without the need to remove or mow soil plugs or otherwise treat the area.
- the translational and rotational movement imparted to an arcuate coring tine minimizes the size of the aperture cut in the soil and the amount of soil lifted from the aeration pocket and deposited on the surface of the ground.
- FIG. 1 is a perspective view of a pull type soil aeration device 10 having a frame 11 supported by a pair of wheels 12 .
- a gear mechanism 13 which is connected to the power take off shaft of a tractor (not shown), rotates the tine holders 14 which contain a set of soil aeration tines 15 .
- the aeration tines are located on parallel members and rotate in an epicycle or planetary manner.
- a soil aeration device providing planetary motion is more fully described in Bjorge U.S. Pat. No. 5,469,922 titled Soil Aerator issued Nov. 28, 1995 and is incorporated herein by reference.
- FIG. 2 shows a top view of soil aeration tine 15 capable of both fracturing and removing soil.
- Soil aeration tine 15 comprises an elongated member 20 having a central axis 19 .
- Elongated member 20 has a first section 22 terminating in an apex end 23 and a second section or mounting end 21 for mounting elongated member 20 on a soil aeration device.
- a cylindrical soil cutting tube 25 which is positioned rearwardly or aft of apex end 23 so that when apex end 23 of elongated member 20 is axially driven into a patch of soil the apex end 23 of elongated member 20 penetrates the patch of soil before the soil cutting tube 25 engages the soil. As the first section 22 penetrates the soil it fractures the soil to form a partial soil aeration pocket.
- the soil 20 cutting tube 25 which is positioned axially rearwardly of the apex 23 and has an annular cutting edge 25 c and a conically tapered surface 25 a engages the soil aft of the apex end and proximate the soil aeration tine 15 to cut a plug of the soil free of the soil.
- the fracturing of the soil occurs in the soil around the lower portion of the hole and both fracturing and soil removal occurs in the soil zone proximate the cutting tube which results in a soil aeration pocket in the soil where the soil aeration pocket is larger than the soil plug cut free of the soil and also without the soil compaction that would occur if a spike were driven downward into the soil.
- FIG. 3 shows a side view of soil aeration tine 20 illustrating a portion of a divergent soil fracturing section 22 which includes an upwardly curving soil fracturing face 20 a and an upwardly curving soil fracturing face 20 b that terminates at apex end 23 .
- FIG. 3 a shows the opposite side of soil aeration tine 15 illustrating the other side of the divergent soil fracturing section 22 which includes identical upwardly curving soil fracturing faces 20 c and 20 d that terminates at apex end 23 .
- a soil lifting face 24 extends laterally from side-to side of soil aeration tine 15 .
- the soil lifting face 24 forms a scoop or spade so that when the soil aeration tine is rotationally removed from the soil the soil face 24 can lift or scoop soil from the soil aeration pocket.
- the soil cutting tube 25 has a leading and annular cutting edge 25 c that diverges outwardly along annular face 25 a to the cylindrical shaped soil cutting tube 25 .
- the cutting edge 25 c of cutting tube 25 is positioned a distance L rearward of the apex end 23 of soil aeration tine 15 to enable the soil fracturing section 22 to penetrate and fracture the soil before the soil aeration tube cuts a soil plug free of the soil.
- the soil cutting tube is positioned at least one and one half inches rearward of the apex end to ensure that the length of the soil plug is kept to a minimum.
- the soil cutting tube should extend sufficiently far along elongated member 20 so as to ensure that one can cut through the top layer of grass and soil.
- the end of the tine 15 lacks an end coring device.
- FIG. 3 b shows a back view of soil aeration tine 15 with a first line 31 extending outward from the central axis 19 of elongated member 20 and a second line 30 extending outward from the geometric center of cutting tube 25 with the distance between the centers indicated by the dimension x. That is, FIG. 3 b illustrates that the cutting tube is laterally offset from the elongated member 20 so that cutting tube 20 and elongated member 20 enter the soil in a side by side condition.
- FIG. 4 is a bottom view of soil aeration tine 15 illustrating that the soil fracturing faces 20 a and 20 c extend axially along elongated member 20 and terminate at apex end 23 .
- the under side of aeration tine 15 presents soil fracturing surfaces 20 a and 20 c while the top side of soil aeration tine 15 presents the latterly offset and rearwardly positioned cutting tube 25 for cutting the soil to remove a plug of soil and grass.
- FIG. 5 is a partial schematic illustrating how soil aeration tine 15 penetrates a patch of soil 40 at an acute angle ⁇ with respect to the top soil.
- the soil aeration soil fracturing surfaces 20 a , 20 b on one side of elongated member 20 and the soil fracturing surfaces 20 c and 20 located on the opposite side of the elongated member penetrate the soil with the soil fracturing surfaces entering the soil at an acute angle causing the soil 15 proximate the soil aeration tine 15 to fracture upward rather than compact. That is the acute angle penetration of the soil fracturing surfaces with the fracturing surfaces facing upward produces an upward component that forces the soil upward.
- the resistance to soil compaction above the soil aeration tine 15 is less than the resistance to soil compaction in the lateral direction. That is, lateral displacing soil produces increased soil compaction since the soil must compact against itself. Thus avoiding direct lateral compaction inhibits soil compaction.
- the cutting edge 25 c extends substantially perpendicular to soil aeration tine 15 to enable the soil aeration tube 25 to capture a soil plug aft of the apex end 23 as the soil aeration tine 15 is driven axially into the soil. It should be pointed out that although multiple soil fracturing faces are shown it is envisioned that only a single soil fracturing surface could be used.
- FIG. 6 illustrates the step when the soil aeration tine is rotated in a clockwise direction as the tine is being moved forward. This rotational action results in an aeration pocket 41 being formed in the region first penetrated by the soil aeration tine.
- FIG. 7 illustrates the further enlargement of the soil aeration pocket 41 as the soil aeration tine 15 continues in a compound motion as a result of the planetary action that drives the tine rearward during the rotation of the support mechanism and forward due to the pulling of the soil aeration device and the rotation of the aeration tine.
- the compound rotation causes the soil aeration tine top face 24 to lift or scoop soil from the aeration pocket while a cut soil plug 42 is held in cutting tube 25 to be disposed of on the ground when the soil aeration tube 15 exits the soil.
- the method of making a soil aeration hole 41 comprises the step of extending an elongated member 20 having a lateral face 24 on one side and a soil diverging section formed by races 20 and 20 c on the other side into the soil to fracture the soil proximate the diverging faces.
- By rotationally removing the elongated member 20 one can free the soil plug and form a soil aeration hole 41 having a top opening smaller than a bottom opening as shown in FIG. 7 .
- Also by rotationally removing the elongated member 20 with the apex end 23 and lifting surface 24 one can partially scoop out soil with the soil lifting face 24 on the elongated member.
- the soil cutting tube 25 has an external diameter larger than the external diameter of the aerator tine. Although, it is submitted that the diameter of the soil cutting tube 25 can be governed by other factors such as soil types and soil conditions.
- the soil aerator tine 15 can include at least one soil fracturing face in a diverging section 22 which diverges in a direction rearward from an apex end 23 on soil aerator tine 15 and in a direction away from a lifting face 24 on soil aerator tine 15 .
- the soil aeration device 15 illustrated in FIG. 3 a shows two soil fracturing faces 20 a and 20 c symmetrically positioned around a central axis 19 extending through the soil aeration tine elongated member 20 .
- a review of FIG. 3 a shows that apex end 23 on soil aeration tube 22 is located lateral of the central axis 19 extending through the soil aeration tube 15 .
- FIGS. 8–11 depict an aeration blade 80 adapted for use in connection with the above-described aeration device 10 .
- the blade 80 functions similarly to the aeration tine 15 discussed above, except that it does not cut and remove a plug of soil.
- the arcuate tine 80 penetrates the soil as shown and described in connection with FIGS. 5–7 , but because this blade lacks the soil cutting tube 25 , no plug is removed from the soil and deposited on the surface of the aerated turf. Rather, as the aeration tine 80 pivots in the motion shown in FIGS. 5–7 , the arcuate end 81 of the aeration tine 80 cuts an aeration groove having a longer dimension in the direction of the cut, which provides a degree of aeration comparable to that provided by aeration tine 15 .
- turf aerated with tine 80 will not be littered with aeration plugs.
- the surface 200 of the aerated turf remains substantially uniform.
- the aeration pockets 201 are visible, but no significant amount of soil has been deposited on the grass surface 200 . Accordingly, the turf need not be further treated (as by mowing) before receiving approach shots or serving as a putting surface.
- the aeration tine 80 can thus be advantageously implemented to significantly reduce maintenance expenditures and virtually eliminate course downtime caused by aeration procedures.
- the aeration blade 80 has a tip 82 , concave edge 83 , and convex edge 84 .
- the cavity 85 is adapted to be received onto a mounting element (not shown) protruding from tine holders 14 of the soil aeration device 10 .
- the blade 80 may be made of high strength steel, metal alloys, composites, hard polymeric materials, or other suitable materials.
- the cavity 85 may include threads, keys, detents, cross-drilled tapped holes for set screws, or other suitable structure that cooperates with the mounting elements on tine holders 14 to securely and releaseably hold blades 80 . Releaseable mounting con figurations advantageously facilitate removal of blades 80 for sharpening or replacement.
- the aeration tine 80 of FIGS. 8–11 has a width 82 of approximately 7/16′′.
- the aeration tines of FIGS. 12–15 are similar to the tine of FIGS. 8–11 , except that the tine of FIGS. 12–15 has a width 122 of approximately 5/16′′.
- the tine of FIGS. 16–19 has a width 162 of approximately 1 ⁇ 8′′ and is adapted for aeration of surfaces which must remain particular flat and even after aeration, such as putting greens.
- FIGS. 21–24 The operation of the arcuate aeration blades are shown in more detail in FIGS. 21–24 .
- an arcuate aeration blade 90 penetrates soil 89 in a downward, clockwise motion 92 .
- the planet gear (not shown) that drives the blade 90 rotates in clockwise direction (as shown by arrow 92 ) while being driven in a counterclockwise planetary direction (as indicated by arrow 91 ).
- the blade 90 translates in the direction of arrow 91 while continuing to rotate in the direction indicted by arrow 92 , thus carving an aeration pocket and causing soil fractures 93 .
- the blade 90 can be mounted in the opposite direction, such that its longer blade edge end faces in direction 94 . Such an arrangement can be usefully employed to, for instance, lift soil from the aeration pocket, thereby increasing the pocket's size.
- FIGS. 23–24 depict an embodiment in which the planetary motion is reversed relative to that shown in FIGS. 21–22 .
- the blade 98 plunges downward into the soil 89 as it translates in the direction of arrow 96 and rotates in a counter-clockwise direction, as indicated by arrow 97 .
- the blade 98 continues to translate and rotate in the aforementioned directions, thereby forming a pocket and soil fractures 99 .
- the blade 80 can be equipped with an aeration tube 25 on its trailing or leading edges, as shown in FIGS. 25–26 .
- the arcuate blade serves to fracture the soil which is compacted by the soil aeration tube 25 .
- the edge on the concave side of the aeration blade 80 can be replaced with a blunt surface.
- the aeration blades tines can be oriented as shown in the figures, or they can be rotated 180 degrees about the long axis of the blade.
- the planetary gear set can be modified to have any desired combination of clockwise and counter-clockwise motions of the planet gear 13 a and sun gear 13 b so that, for instance, both the translation and rotation of the blade are in a clockwise direction.
- the gear ratios and sizes can be freely modified to create pockets having different profiles and fractures.
- the tines can be grouped or staggered on the tine holders in any fashion desired.
- the tines can be grouped in pairs or triplets along the tine holders.
- the tines can also be disposed at a angle relative to the vertical plane defined by the pocket shown in FIGS. 21–24 to accomplish a different type of soil fracturing.
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Abstract
A soil aeration device may include a plurality of arcuate blades mounted to an assembly adapted to rotate and translate the blades proximate a ground surface, thereby forming aeration pockets in the soil. In certain embodiments, the arcuate tines penetrate and fracture the soil while minimizing the amount of soil lifted from the pocket deposited on the top of the soil. In various embodiments, a planetary gear assembly imparts to the tine a translational and rotational movement which creates a fractured pocket in the soil while minimizing the amount of soil lifted from the pocket and deposited on the surface of the soil. In still other embodiments, the arcuate tine may have mounted thereon a coring tube that cuts and removes a plug from the pocket formed in the soil.
Description
This application claims priority from U.S. Provisional Application No. 60/363,786, filed Mar. 12, 2002, entitled “Aeration Device,” by David R. Maas, the entirety of which is incorporated by reference herein.
Soil aeration devices are generally designed to cut a plug out of the soil instead of driving a spike into the soil because the latter approach compacts the soil. Towable soil aerator devices typically remove plugs of soil while forming an enlarged soil aeration pocket. Such aerators include hollow cylindrical tubes that enter the soil at an angle to cut free a cylindrical soil plug which contains grass, grass roots and soil. As the soil aeration device moves forward, planetary gears in the soil aeration device cause the soil aeration tubes to pivot to form a soil aeration hole or pocket wherein the bottom portion of the soil aeration hole is larger than the top opening of the soil aeration hole. The soil aeration tube is then lifted out of the soil to remove the soil plug, which is usually discarded on top of the soil.
One of the difficulties with soil aeration devices is that a substantial amount of soil, grass and roots in the form of cylindrical plugs are left on top of the soil. These soil plugs must either be removed, allowed to decompose, or pulverized via mowing. Generally, the larger the soil plugs, the longer it takes for the soil plugs to decompose naturally.
A soil aeration device may include a plurality of arcuate blades mounted to an assembly adapted to rotate and translate the blades proximate a ground surface, thereby forming aeration pockets in the soil. In certain embodiments, the arcuate tines penetrate and fracture the soil while minimizing the amount of soil lifted from the pocket deposited on the top of the soil. In various embodiments, a planetary gear assembly imparts to the tine a translational and rotational movement which creates a fractured pocket in the soil while minimizing the amount of soil lifted from the pocket and deposited on the surface of the soil. In still other embodiments, the arcuate tine may have mounted thereon a coring tube that cuts and removes a plug from the pocket formed in the soil.
The apparatus described herein may provide one or more of the following advantages. In certain embodiments, the soil aeration device enables a grassy area such as a golf course fairway to be aerated without the deposition of the plugs or significant amounts of soil on the grass, thereby permitting use of the fairway immediately after aeration without the need to remove or mow soil plugs or otherwise treat the area. In some embodiments, the translational and rotational movement imparted to an arcuate coring tine minimizes the size of the aperture cut in the soil and the amount of soil lifted from the aeration pocket and deposited on the surface of the ground.
The details of one or more embodiments are set forth in the accompanying drawings and the description below. Other features, objects, and advantages of the invention will be apparent from the description and drawings, and from the claims.
The soil cutting tube 25 has a leading and annular cutting edge 25 c that diverges outwardly along annular face 25 a to the cylindrical shaped soil cutting tube 25. The cutting edge 25 c of cutting tube 25 is positioned a distance L rearward of the apex end 23 of soil aeration tine 15 to enable the soil fracturing section 22 to penetrate and fracture the soil before the soil aeration tube cuts a soil plug free of the soil. In the embodiment shown the soil cutting tube is positioned at least one and one half inches rearward of the apex end to ensure that the length of the soil plug is kept to a minimum. On the other hand the soil cutting tube should extend sufficiently far along elongated member 20 so as to ensure that one can cut through the top layer of grass and soil. Thus, in the embodiment shown in the drawings the end of the tine 15 lacks an end coring device.
Thus the method of making a soil aeration hole 41 comprises the step of extending an elongated member 20 having a lateral face 24 on one side and a soil diverging section formed by races 20 and 20 c on the other side into the soil to fracture the soil proximate the diverging faces. In addition, one cuts a soil plug free of the soil with the soil aeration tube 25 by cutting the soil plug from the soil located rearward and lateral of the diverging faces 20 and 2 c. By rotationally removing the elongated member 20 one can free the soil plug and form a soil aeration hole 41 having a top opening smaller than a bottom opening as shown in FIG. 7 . Also by rotationally removing the elongated member 20 with the apex end 23 and lifting surface 24 one can partially scoop out soil with the soil lifting face 24 on the elongated member.
In the embodiments shown the soil cutting tube 25 has an external diameter larger than the external diameter of the aerator tine. Although, it is submitted that the diameter of the soil cutting tube 25 can be governed by other factors such as soil types and soil conditions.
Thus the soil aerator tine 15 can include at least one soil fracturing face in a diverging section 22 which diverges in a direction rearward from an apex end 23 on soil aerator tine 15 and in a direction away from a lifting face 24 on soil aerator tine 15. The soil aeration device 15 illustrated in FIG. 3 a shows two soil fracturing faces 20 a and 20 c symmetrically positioned around a central axis 19 extending through the soil aeration tine elongated member 20. A review of FIG. 3 a shows that apex end 23 on soil aeration tube 22 is located lateral of the central axis 19 extending through the soil aeration tube 15. By having the soil diverging faces forming an off center apex 23 on one side of the soil aeration tine 15 the soil against the soil face 24 is penetrated without compaction while the soil above the soil aeration fracture faces is forced away from the soil aeration tube. When the soil aeration tube is driven at an acute angle into the soil the diverging fracturing surfaces move the soil upward which fractures the soil without compacting the soil.
Moreover, turf aerated with tine 80 will not be littered with aeration plugs. As shown in FIG. 20 , the surface 200 of the aerated turf remains substantially uniform. The aeration pockets 201 are visible, but no significant amount of soil has been deposited on the grass surface 200. Accordingly, the turf need not be further treated (as by mowing) before receiving approach shots or serving as a putting surface. The aeration tine 80 can thus be advantageously implemented to significantly reduce maintenance expenditures and virtually eliminate course downtime caused by aeration procedures.
Returning to FIGS. 8–11 , the aeration blade 80 has a tip 82, concave edge 83, and convex edge 84. The cavity 85 is adapted to be received onto a mounting element (not shown) protruding from tine holders 14 of the soil aeration device 10. The blade 80 may be made of high strength steel, metal alloys, composites, hard polymeric materials, or other suitable materials. The cavity 85 may include threads, keys, detents, cross-drilled tapped holes for set screws, or other suitable structure that cooperates with the mounting elements on tine holders 14 to securely and releaseably hold blades 80. Releaseable mounting con figurations advantageously facilitate removal of blades 80 for sharpening or replacement. The aeration tine 80 of FIGS. 8–11 has a width 82 of approximately 7/16″.
The aeration tines of FIGS. 12–15 are similar to the tine of FIGS. 8–11 , except that the tine of FIGS. 12–15 has a width 122 of approximately 5/16″. The tine of FIGS. 16–19 has a width 162 of approximately ⅛″ and is adapted for aeration of surfaces which must remain particular flat and even after aeration, such as putting greens.
The operation of the arcuate aeration blades are shown in more detail in FIGS. 21–24 . With reference to FIG. 21 , an arcuate aeration blade 90 penetrates soil 89 in a downward, clockwise motion 92. As the tractor proceeds in the direction shown by arrow 94, the planet gear (not shown) that drives the blade 90 rotates in clockwise direction (as shown by arrow 92) while being driven in a counterclockwise planetary direction (as indicated by arrow 91). As the tractor continues in the direction of arrow 94, the blade 90 translates in the direction of arrow 91 while continuing to rotate in the direction indicted by arrow 92, thus carving an aeration pocket and causing soil fractures 93. Optionally, the blade 90 can be mounted in the opposite direction, such that its longer blade edge end faces in direction 94. Such an arrangement can be usefully employed to, for instance, lift soil from the aeration pocket, thereby increasing the pocket's size.
The blade 80 can be equipped with an aeration tube 25 on its trailing or leading edges, as shown in FIGS. 25–26 . In such embodiments, the arcuate blade serves to fracture the soil which is compacted by the soil aeration tube 25.
Various additional modifications can be advantageously made to the apparatus described above in accordance with the teachings set forth herein. For instance, the edge on the concave side of the aeration blade 80 can be replaced with a blunt surface. As noted above, the aeration blades tines can be oriented as shown in the figures, or they can be rotated 180 degrees about the long axis of the blade. The planetary gear set can be modified to have any desired combination of clockwise and counter-clockwise motions of the planet gear 13 a and sun gear 13 b so that, for instance, both the translation and rotation of the blade are in a clockwise direction. The gear ratios and sizes can be freely modified to create pockets having different profiles and fractures. The tines can be grouped or staggered on the tine holders in any fashion desired. For example, the tines can be grouped in pairs or triplets along the tine holders. The tines can also be disposed at a angle relative to the vertical plane defined by the pocket shown in FIGS. 21–24 to accomplish a different type of soil fracturing.
A number of embodiments of the invention have been described. Nevertheless, it will be understood that various modifications may be made without departing from the spirit and scope of the invention.
Claims (24)
1. An aeration device, comprising:
a tine holding member;
a gear assembly that imparts rotational and translational motion to the tine holding member; and
a plurality of aeration tines mounted to the tine holding member, each aeration tine having a proximal end and a distal end and including an arcuate blade portion having a concave blade edge and a complementary convex blade edge, said edges converging near said distal end;
wherein the rotational and translational motion is imparted to at least one aeration tine while that aeration tine is at least partially in a ground surface.
2. The aeration device of claim 1 , wherein the gear assembly includes a planetary gear and said tine holding member is attached to said planetary gear.
3. The aeration device of claim 2 , wherein the planetary gear imparts a movement to said aeration tines, said movement being adapted to form a slit in a soil surface and a pocket under the soil surface which is larger than the slit.
4. The aeration device of claim 1 , wherein the arcuate blade portion has a thickness which is substantially less than the thickness of the proximal portion of the aeration tine.
5. The apparatus of claim 1 , each aeration tine further including an aeration tube having a longitudinal axis substantially parallel to the proximal portion of the aeration tine.
6. The aeration device of claim 1 , wherein the blade portion has a thickness equal to or less than about 5/16 inch.
7. The aeration device of claim 1 , wherein the blade portion has a thickness equal to or less than about ⅛ inch.
8. The aeration device of claim 1 , wherein the tine holding member is a shaft having means for retaining said aeration tines.
9. An aeration method, comprising:
providing a plurality of aeration tines, each aeration tine having a proximal end and a distal end and including an arcuate blade portion having a concave blade edge and a complementary convex blade edge, said edges converging near said distal end;
imparting rotational and translational motion to the tines when such tines are at least partially in a soil surface such that each tine forms a slit in the soil surface and a pocket under the soil surface without lifting substantial amounts of subterranean soil onto the soil surface.
10. The method of claim 9 , wherein the slit has a first length and the pocket has a second length, said first length being smaller than said second length.
11. The method of claim 9 , wherein the translational and rotational movement is imparted by a planetary gear assembly, said translation movement being imparted by counterclockwise movement of a planet gear and said rotational movement being clockwise.
12. The method of claim 9 , wherein the translational and rotational movement is imparted by a planetary gear assembly, said translation movement being imparted by clockwise movement of a planet gear and said rotational movement being counterclockwise.
13. The method of claim 9 , wherein each tine simultaneously removes a soil plug proximate the pocket.
14. An aeration device, comprising:
a tine holding member;
a gear assembly to impart rotational and translational motion to the tine holding member; and
a plurality of aeration tines mounted to the tine holding member, each aeration tine having a proximal end and a distal end and including an blade portion having a concave blade edge and a complementary convex blade edge, said edges converging near said distal end,
wherein said rotational and translational movement causes at least one aeration tine to form a slit in a soil surface and a pocket under the soil surface that is larger than the slit.
15. The aeration device of claim 14 , wherein the gear assembly includes a planetary gear and said tine holding member is attached to said planetary gear.
16. The aeration device of claim 14 , wherein the blade portion has a thickness which is substantially less than the thickness of the proximal portion of the aeration tine.
17. The apparatus of claim 14 , each aeration tine further including an aeration tube having a longitudinal axis substantially parallel to the proximal portion of the aeration tine.
18. The aeration device of claim 14 , wherein the blade portion has a thickness equal to or less than about 5/16 inch.
19. The aeration device of claim 14 , wherein the blade portion has a thickness equal to or less than about ⅛ inch.
20. The aeration device of claim 14 , wherein the tine holding member is a shaft having means for retaining said aeration tines.
21. An aeration method, comprising:
providing a plurality of aeration tines, each aeration tine having a proximal end and a distal end and including an blade portion having a concave blade edge and a complementary convex blade edge, said edges converging near said distal end;
imparting rotational and translational motion to the tines when such tines are proximate a soil surface such that each tine forms a slit in the soil surface and a pocket under the soil surface without lifting substantial amounts of subterranean soil onto the soil surface,
wherein the slit has a first length and the pocket has a second length, said first length being smaller than said second length.
22. The method of claim 21 , wherein the translational and rotational movement is imparted by a planetary gear assembly, said translation movement being imparted by counterclockwise movement of a planet gear and said rotational movement being clockwise.
23. The method of claim 21 , wherein the translational and rotational movement is imparted by a planetary gear assembly, said translation movement being imparted by clockwise movement of a planet gear and said rotational movement being counterclockwise.
24. The method of claim 21 , wherein each tine simultaneously removes a soil plug proximate the pocket.
Priority Applications (10)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US10/387,092 US7096968B2 (en) | 2002-03-12 | 2003-03-12 | Aeration device |
US10/775,538 US7152691B2 (en) | 2001-03-29 | 2004-02-10 | Arcuate aeration tine |
US11/250,694 US7438136B2 (en) | 2002-03-12 | 2005-10-11 | Aeration device |
US11/318,728 US7669666B2 (en) | 2001-03-29 | 2005-12-27 | Aeration device |
US11/448,657 US7640994B2 (en) | 2002-03-12 | 2006-06-07 | Arcuate aeration tine |
US12/208,784 US7743841B2 (en) | 2002-03-12 | 2008-09-11 | Aeration device |
US12/685,980 US8028758B2 (en) | 2001-03-29 | 2010-01-12 | Aeration device |
US12/824,596 US7931094B2 (en) | 2002-03-12 | 2010-06-28 | Aeration device |
US13/251,718 US8220557B2 (en) | 2001-03-29 | 2011-10-03 | Aeration device |
US13/517,702 US8387713B2 (en) | 2001-03-29 | 2012-06-14 | Aeration device |
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US11/250,694 Continuation US7438136B2 (en) | 2002-03-12 | 2005-10-11 | Aeration device |
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US12/208,784 Expired - Lifetime US7743841B2 (en) | 2002-03-12 | 2008-09-11 | Aeration device |
US12/824,596 Expired - Fee Related US7931094B2 (en) | 2002-03-12 | 2010-06-28 | Aeration device |
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US12/824,596 Expired - Fee Related US7931094B2 (en) | 2002-03-12 | 2010-06-28 | Aeration device |
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Also Published As
Publication number | Publication date |
---|---|
US20030230417A1 (en) | 2003-12-18 |
US7743841B2 (en) | 2010-06-29 |
US20100263888A1 (en) | 2010-10-21 |
US20090008108A1 (en) | 2009-01-08 |
US7438136B2 (en) | 2008-10-21 |
US20060037762A1 (en) | 2006-02-23 |
US7931094B2 (en) | 2011-04-26 |
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